Trending Deformity News:
- Longitudinal changes in spinal kyphosis, lordosis, and range of motion in aging populations: a 10-year study
- Correction: What factors predict cervical sagittal alignment restoration after correction of thoracic adolescent idiopathic scoliosis with severe thoracic hypokyphosis? A multicenter retrospective study of 57 patients
- Cardiac dysfunction after operative correction of a thoracic hyperkyphosis in a patient with a severe pectus excavatum
- Answer to the Letter to the Editor of S. Zhou, et al. concerning “Bipolar spinal correction reduces transfusion rate and hospital stay compared with traditional posterior spinal fusion in children with scoliosis secondary to cerebral palsy” by Lundine K, et al. (Eur Spine J [2025]; doi:10.1007/s00586-025-09282-1)
- Letter to the Editor concerning “Radiation-free 3D assessment of back height differences via three-dimensional depth sensing in adolescent idiopathic scoliosis: prospective, single-center, observational study” by S. Chen, et al. (Eur Spine J [2025]; doi:10.1007/s00586-025-09154-8)
- Oblique lateral interbody fusion with prioritized core vertebral correction technology for the treatment of lumbosacral curve-driven degenerative lumbar scoliosis
- Use of machine learning predictive models in sagittal alignment planning in adolescent idiopathic scoliosis surgery
- Letter to the Editor concerning "Beyond the Cobb angle: the radiographic measurement differences from halo gravity traction in patients with severe spine deformities before scoliosis surgical correction – cross-sectional study, local experience" by A.G.C. Barros et al. (Eur Spine J [2025]; doi: 10.1007/s00586-025-09270-5)
- 98. Robotic- and computer-assisted navigation in PSF for idiopathic scoliosis increase total radiation exposure for the patient but reduce intraoperative fluoroscopy time compared to freehand technique
- Global and segmental thoracolumbar sagittal alignment in adolescent idiopathic scoliosis compared to normal individuals
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